CN108800575A - A kind of family type clean energy resource station - Google Patents

Abstract

The invention discloses a kind of family type clean energy resource station, which includes babinet and partition board, and the inner space of the babinet is divided into heat-accumulating area and heat release to drive area by the partition board.It is provided with heat storage in the heat-accumulating area, accumulation of heat channel and heat release channel are provided in the heat storage, electric-heating assembly is provided in the accumulation of heat channel, the first insulating layer is provided between the heat storage and babinet.It is provided with heat exchanger and the first wind turbine in the heat release driving area, the shell-side outlet of the heat exchanger is connected with the import of first wind turbine, the outlet of first wind turbine is connected by first pipe with the one end in the heat release channel, and the other end of the heat release pipeline is connected by second pipe with the shell side import of the heat exchanger.The energy source station makes full use of trough-electricity " peak load shifting " policy of country, is not influenced by ambient temperature, can meet the hot needs such as its heating, domestic hot-water, household drying, baking, blanching.

Description

A kind of family type clean energy resource station

Technical field

The present invention relates to heat supply heating technical field, specifically a kind of family type clean energy resourcies suitable for rural area It stands.

Background technology

In recent years, " coal changes electricity ", " coal changes gas " cry under cleaning heating is appealed are grown to even greater heights, and save of the north proposes pass more In Promote rural area, heating work coal changes the implementation guideline of electricity, it is intended to which heat pollution control level in General Promotion rural area, adjustment Optimize rural area heat supply energy resource structure, promotes the use of green clean energy resource.

Currently, air source heat pump heating changes mainly one of mode of electricity as coal, energy-saving and environmental protection receive everybody blueness It looks at, but its application is limited there is also some problems, mainly the performance under frosting and low ambient temperature is not at low temperature for heat exchanger The problems such as good.Especially in northern area, winter outdoor temperature can reach even subzero twenties degree of subzero ten several years, at this The efficiency that air heat source pumps under kind environment is extremely low, or even the phenomenon that cannot starting occurs, and heating effect is also very undesirable, nothing Method meets the needs of people.

It warms oneself according to simple electric heater, it is not only costly, and also heating effect is also undesirable.

Invention content

In view of the above-mentioned problems, the present invention provides a kind of family type clean energy resource station, which makes full use of country Trough-electricity " peak load shifting " policy, is not influenced by ambient temperature, can meet the use such as its heating, domestic hot-water and household drying Heat needs, such as household steam blanching, baking, fruits and vegetables blanching, meat seafood blanching etc., provides the one-stop solution of home-use heat Scheme.

The technical scheme adopted by the invention to solve the technical problem is that：

A kind of family type clean energy resource station, including babinet and partition board, the partition board divide the inner space of the babinet Area is driven at heat-accumulating area and heat release；

It is provided with heat storage in the heat-accumulating area, accumulation of heat channel and heat release channel, institute are provided in the heat storage It is provided with electric-heating assembly in the accumulation of heat channel stated, the first insulating layer is provided between the heat storage and babinet；

It is provided with heat exchanger and the first wind turbine in described heat release driving area, the shell-side outlet of the heat exchanger and described the The import of one wind turbine is connected, and the outlet of first wind turbine is connected by first pipe with the one end in the heat release channel, The other end of the heat release pipeline is connected by second pipe with the shell side import of the heat exchanger.

Further, the accumulation of heat channel is arranged in arrays along the longitudinal direction, and the heat release channel is in left-right direction Accumulation of heat channel arranged in arrays and described and heat release channel spacing arrangement.

Further, the heat storage is stacked by gitter brick, is provided with along preceding on the downside of the gitter brick Rear direction runs through the heat storage tank of the gitter brick, is provided on the upper side of the gitter brick and runs through the accumulation of heat in left-right direction The heat release slot of brick, and the inner surface of the heat release slot is provided with rough texture.

Further, the heat storage is made by magnesia brick or magnesium grey iron block.

Further, the electric-heating assembly includes ceramic tube and the heater strip that is wrapped on the outside of the ceramic tube.

Further, the front and rear ends in the accumulation of heat channel are provided with end cap, and one end of the end cap is inserted into described In accumulation of heat channel, the step surface of the end cap is resisted against on the side of the heat storage, is respectively set on the end cap useful In the groove for supporting the ceramic tube and the cable hole for allowing heater strip to pass through.

Further, it is provided with temperature sensor in the heat storage.

Further, the first pipe is connected by third pipeline with the external world, and is set on the third pipeline It is equipped with valve, the second pipe is connected by the 4th pipeline with the import of the second wind turbine.

Further, the upper side of the heat storage, downside, leading flank and trailing flank are adjacent to the first insulating layer respectively, There is a certain distance between the left side and right side and the first insulating layer of the heat storage.

Further, it is provided with the second insulating layer on the madial wall in heat release driving area.

The beneficial effects of the invention are as follows：

1, the present invention establishes a kind of energy source station suitable for family by way of accumulation of heat, heat supply warm area range extensively and Heating form can be adjusted flexibly according to specific requirements, the hot needs such as its heating, domestic hot-water and household drying can be met, such as Household steam blanching, baking, fruits and vegetables blanching, meat seafood blanching etc. provide the one-stop solution with heat.

2, the present invention makes full use of trough-electricity " peak load shifting " policy of country, using night storage heating, in daylight and at night simultaneously With the pattern of heat, trough-electricity is made full use of, not only reduces use cost, and the balance to national grid and energy conservation and environmental protection tool There is important meaning.

3, the energy source station is not influenced during being heated by environment temperature, adaptable, and heating effect can be with Traditional coal heating compares favourably.

4, the accumulation of heat channel of the energy source station heat storage and heat release channel connection and reasonable arrangement so that accumulation of heat and heat release are uniform.

5, the heat storage of the energy source station is stacked using a kind of gitter brick, and a kind of mold is only needed during production , and the size of heat storage can be flexibly adjusted as needed, production cost is not only reduced, and can be according to the energy The size stood, the flexible size for adjusting heat storage, does not need another mold.

Description of the drawings

Fig. 1 is the structural schematic diagram of energy source station；

Fig. 2 is the structural schematic diagram of heat exchanger；

Fig. 3 is the dimensional structure diagram of heat storage；

Fig. 4 is the dimensional structure diagram of gitter brick；

Attachment structure schematic diagrams of the Fig. 5 between heating element and heat storage；

Fig. 6 is the enlarged structure schematic diagram of part A in Fig. 5；

Fig. 7 is the structural schematic diagram of end cap.

In figure：1- babinets, 11- partition boards, the first insulating layers of 12-, the second insulating layers of 13-, 2- heat storages, 21- accumulation of heats channel, 22- heat releases channel, 31- heater strips, 32- ceramic tubes, 33- end caps, 331- cable holes, 332- grooves, 4- heat exchangers, 41- shell sides Import, 42- shell-side outlets, 43- tube side imports, the outlet of 44- tube sides, the first wind turbines of 5-, the second wind turbines of 6-, 71- first pipes, 72- second pipes, 73- third pipelines, 731- valves, the 4th pipelines of 74-.

Specific implementation mode

For the convenience of description, it is as shown in Figure 1 now to define coordinate system.

Embodiment one

As shown in Figure 1, a kind of family type clean energy resource station includes a babinet 1, the middle part of the babinet 1 is provided with a partition board 11, the inner space of the babinet 1 is divided into two parts up and down by the partition board 11.For the convenience of description, existing by the first half Divide and be defined as heat-accumulating area, lower half portion is defined as heat release driving area.

As a kind of specific implementation mode, 1 square frame of babinet described in the present embodiment and it is set to the frame External plank composition, the frame are welded by shaped steel.

As shown in Figure 1, being provided with heat storage 2 in the heat-accumulating area, it is logical that multiple accumulation of heats are provided in the heat storage 2 Road 21 and heat release channel 22 are provided with electric-heating assembly in the accumulation of heat channel 21.It is set between the heat storage 2 and babinet 1 It is equipped with the first insulating layer 12.

Further, in order to enable the uniform accumulation of heat of heat storage 2 and heat release, as shown in Figure 1, the accumulation of heat channel 21 It is arranged in arrays along the longitudinal direction, the heat release channel 22 accumulation of heat channel 21 arranged in arrays in left-right direction and described With 22 arranged for interval of heat release channel.

As a kind of specific implementation mode, the heat storage 2 described in the present embodiment is by the high magnesia brick of heat storage capacity, magnesium grey iron block Or phase transformation heat-storing material is made.First insulating layer 12 is made by heat safe rock wool.

As shown in Fig. 5, Fig. 6 and Fig. 7, the electric-heating assembly includes the ceramic tube being set in the accumulation of heat channel 21 32, the outside of the ceramic tube 32 is wound with heater strip 31.A blind hole (not depending on going out in figure) is provided in the heat storage 2, The temperature sensor for detecting 2 temperature of heat storage is provided in the blind hole (not depending on going out in figure).When work, controller will The temperature signal detected feeds back to controller, the temperature value that the controller passes through the temperature signal and setting of comparison feedback The break-make situation of heating wire is controlled, to control the temperature of heat storage 2.

Further, it is installed on replacement in order to facilitate heating component, as shown in figure 5, the accumulation of heat channel 21 is front and back It is provided at both ends with end cap 33, as shown in Figure 6 and Figure 7, the end cap 33 is the T-shaped rotary structure in section.The end cap The smaller one end of 33 diameter is inserted into the accumulation of heat channel 21, the end cap 33 by be relatively large in diameter one end and diameter compared with Small one end is formed by step surface and is resisted against on the side of the heat storage 2.One end that the diameter of the end cap 33 is smaller is arranged It is useful for supporting the cylinder groove 332 of the ceramic tube 32.Being provided on the end cap 33 allows the heater strip 31 cable holes 331 passed through.

Further, in order to facilitate the processing of heat storage 2, the size of heat storage 2 is allow to carry out spirit according to actual needs Adjustment living, as shown in figure 3, the heat storage 2 is stacked by the identical gitter brick of multi-blocked structure, as shown in figure 4, described The heat storage tank of multiple semicirculars in shape for running through the gitter brick along the longitudinal direction, the accumulation of heat are provided on the downside of gitter brick The heat release slot of multiple semicirculars in shape for running through the gitter brick in left-right direction is provided on the upper side of brick.It is adjacent when stacking The heat storage tank of two pieces of gitter bricks forms a complete rounded accumulation of heat channel 21, the heat release slot composition of adjacent two pieces of gitter bricks One complete rounded heat release channel 22.As a kind of specific implementation mode, it is arranged on every piece of gitter brick in the present embodiment There are three heat storage tank and two heat release slots.

It only needs that temperature sensor is arranged on one piece of gitter brick wherein herein.

As shown in Figure 1, being provided with heat exchanger 4 and the first wind turbine 5, the shell of the heat exchanger 4 in the heat release driving area Journey outlet 42 is connected with the import of first wind turbine 5, and the outlet of first wind turbine 5 is released by first pipe 71 with described The right end of the passage of heat 22 is connected, the shell side import that the left end of the heat release pipeline passes through second pipe 72 and the heat exchanger 4 41 are connected.The tube side import 43 of the heat exchanger 4 and tube side outlet 44 are connected to user terminal, for heating or providing life Hot water.

Further, in order to improve the diversity of energy source station function, meet the drying demand of user, as shown in Figure 1, described First pipe 71 on be provided with the third pipeline 73 being connected with the first pipe 71, and the third pipeline 73 is another End extends to the outside of the babinet 1, is connected with the external world.The end of the third pipeline 73 is provided with for controlling third pipe The valve 731 of 73 break-make of road.The 4th pipeline being connected with the second pipe 72 is provided on the second pipe 72 74, the other end of the 4th pipeline 74 is connected with the import of the second wind turbine 6, and the outlet of second wind turbine 6 is connected to use Family end provides drying service to the user.

Preferably, the valve 731 uses Heat-insulation valve 731.As a kind of specific implementation mode, institute in the present embodiment The valve 731 stated is using the BQ41F type integral heat preservation ball valves produced up to the limited Co., Ltd of 731 pipe fitting of valve in Wenzhou City.

Further, the process of heat release just, in order to ensure that air is all flowed through out of heat release channel 22, improve heat release Efficiency, as shown in Figure 1, the upper side of the heat storage 2, downside, leading flank and trailing flank are adjacent to the first insulating layer 12 respectively, There is a certain distance between the left side and right side of the heat storage 2 and the first insulating layer 12.For the convenience of description, existing will Region between 2 left side of the heat storage and the first insulating layer 12 is defined as heat release outlet area, by 2 right side of the heat storage Region between the first insulating layer 12 is defined as heat release entrance region.The first pipe 71 passes through first insulating layer 12 are connected with the heat release entrance region, and the second pipe 72 passes through first insulating layer 12 and the heat release Outlet area is connected.

Further, in order to reduce heat loss, as shown in Figure 1, being provided on the madial wall in the heat release driving area Second insulating layer 13.As a kind of specific implementation mode, the second insulating layer 13 described in the present embodiment is made by rock wool material It forms.

When work, heater strip 31 endlessly generates heat after being powered, and the heat generated is absorbed and stored up by heat storage 2 It stores away, when temperature sensor detects that 2 temperature of heat storage reaches setting value, heater strip 31 stops heating.

When user needs hot water, the second wind turbine 6 and valve 731 are closed, opens the first wind turbine 5 so that wind passes through first Pipeline 71 enters heat release entrance region, subsequently enters heat release channel 22, and carry out heat with the heat storage 2 of high temperature in heat release channel 22 Amount exchanges, and air is heated, and the air of high temperature enters heat release outlet area, and is entered in heat exchanger 4 by second pipe 72, with Water in the heat exchanger tube of heat exchanger 4 carries out heat exchange, and water is heated to form hot water or steam in the heat exchanger tube of heat exchanger 4, From 44 outflow of the tube side of heat exchanger 4 outlet, it is delivered to user terminal, is used for user heating or domestic water.The warp in heat exchanger 4 The air for crossing heat exchange is flowed out from the shell-side outlet 42 of heat exchanger 4, is re-introduced into heat storage 2 by the first wind turbine 5, formation is closed Formula recycles.Actual leaving water temperature can be adjusted by adjusting the rotating speed of the first wind turbine 5.

When user needs hot wind to dry, the first wind turbine 5 is closed, valve 731 and the second wind turbine 6 are opened, second Under the action of wind turbine 6, extraneous natural wind passes sequentially through third pipeline 73 and first pipe 71 enters heat release entrance region, then Into heat release channel 22, and heat exchange is carried out with the heat storage 2 of high temperature in heat release channel 22, air is heated, high temperature Air enters heat release outlet area, and passes sequentially through second pipe 72 and the 4th pipeline 74 enters the import of the second wind turbine 6, most It is discharged eventually from the outlet of the second wind turbine 6, for users to use.Actual leaving air temp can be by adjusting the rotating speed of the second wind turbine 6 It is adjusted.

Embodiment two

The inner surface of the heat release slot is provided with rough texture, remaining structure is the same as embodiment one.

In this way, can increase the disturbance in heat release process apoplexy in the duct, enhancing heat exchange improves heat exchange efficiency.

Claims (10)

1. a kind of family type clean energy resource station, it is characterised in that：Including babinet and partition board, the partition board is by the inside of the babinet Space is divided into heat-accumulating area and heat release to drive area；

It is provided with heat storage in the heat-accumulating area, accumulation of heat channel and heat release channel are provided in the heat storage, it is described It is provided with electric-heating assembly in accumulation of heat channel, the first insulating layer is provided between the heat storage and babinet；

It is provided with heat exchanger and the first wind turbine, the shell-side outlet of the heat exchanger and first wind in the heat release driving area The import of machine is connected, and the outlet of first wind turbine is connected by first pipe with the one end in the heat release channel, described The other end of heat release pipeline is connected by second pipe with the shell side import of the heat exchanger.

2. a kind of family type clean energy resource station according to claim 1, it is characterised in that：The accumulation of heat channel is along front and back Direction is arranged in arrays, heat release channel accumulation of heat channel arranged in arrays in left-right direction and described and heat release channel Arranged for interval.

3. a kind of family type clean energy resource station according to claim 2, it is characterised in that：The heat storage is by gitter brick It stacks, the heat storage tank for running through the gitter brick along the longitudinal direction, the accumulation of heat is provided on the downside of the gitter brick The heat release slot for running through the gitter brick in left-right direction is provided on the upper side of brick, and the inner surface of the heat release slot is provided with Rough texture.

4. a kind of family type clean energy resource station according to claim 2, it is characterised in that：The heat storage by magnesia brick or Magnesium grey iron block is made.

5. a kind of family type clean energy resource station according to claim 1, it is characterised in that：The electric-heating assembly includes pottery Porcelain tube and the heater strip being wrapped on the outside of the ceramic tube.

6. a kind of family type clean energy resource station according to claim 5, it is characterised in that：The accumulation of heat channel it is forward and backward It is provided at both ends with end cap, one end of the end cap is inserted into the accumulation of heat channel, and the step surface of the end cap is resisted against institute It states on the side of heat storage, be separately provided for supporting the groove of the ceramic tube on the end cap and heater strip is allowed to wear The cable hole crossed.

7. a kind of family type clean energy resource station according to claim 1, it is characterised in that：It is provided in the heat storage Temperature sensor.

8. a kind of family type clean energy resource station according to claim 1, it is characterised in that：The first pipe passes through Three pipelines are connected with the external world, and valve is provided on the third pipeline, the second pipe by the 4th pipeline with The import of second wind turbine is connected.

9. a kind of family type clean energy resource station according to claim 1, it is characterised in that：The upper side of the heat storage, Downside, leading flank and trailing flank are adjacent to the first insulating layer, the left side and right side of the heat storage and the first heat preservation respectively There is a certain distance between layer.

10. a kind of family type clean energy resource station according to claim 1, it is characterised in that：The heat release driving area The second insulating layer is provided on madial wall.